Device for facilitating overlay network operation in an underlay network environment

ABSTRACT

A wireless communication server device facilitates overlay network communications in an underlay network environment. A database portion is configured to store information regarding overlay network devices within the underlay network environment. An overlay device management portion is configured to communicate with overlay devices and to provide operation information to the overlay devices. An underlay network communication portion is configured to communicate with at least one underlay network device at least to facilitate communications between a mobile station and a selected overlay device.

TECHNICAL FIELD

This invention generally relates to communications. More particularly,this invention relates to wireless communications using overlay networkdevices within an underlay network environment.

DESCRIPTION OF THE RELATED ART

Wireless communication systems are well known and in widespread use.Most systems allow subscribers to use mobile stations to conduct voicecommunications. In the recent past, more features have become availablesuch as data communications along with other enhanced capabilities ofwireless communications systems. It has become desirable for manysubscribers to be able to use their mobile station as a primarycommunication device. In many situations, it has not been possible toreplace the line-based telephone system in a building because of aninability to achieve sufficient radio frequency communications frominside the building to wireless communication network equipment locatedoutside. There are RF losses associated with signals trying to penetratethrough walls, for example.

One proposal at expanding wireless communication capability is toprovide signaling devices within buildings that allows an individual touse a mobile station in a more reliable manner whether the mobilestation is inside or outside the building. For example, it has beenproposed to use overlay devices such as base station router devices orpicocell base station units (PCBSU) within buildings for interfacingbetween a mobile station and a wireless communication network so that asubscriber achieves reliable communications within a building. Anotherreason to consider such signaling devices is to support increased datarates with low interference generated for other mobiles. This ispossible due to the much smaller path-loss to an overlay device as aresult of the usually small distance to the mobile. This allows a moreefficient use of the operator's frequency spectrum.

With a proliferation of such overlay devices, various challenges becomeapparent. One issue is how to render such devices easy to install forthe average consumer. Traditionally, adding base stations to a wirelesscommunication system has been a lengthy, expensive and labor-intensiveprocess. Adding overlay devices within a macrocell can improve thespectrum utilization but to be feasible, must be simpler than what isnow required to add base stations in the conventional manner.Traditional manual configuration techniques used in cellularcommunication systems are not practical for deploying a large number ofoverlay devices. Additionally, where multiple overlay devices aredeployed, there typically will be low efficiency especially wheretechnically inexperienced users are installing the overlay devices. Thisis because it is necessary to properly plan frequency use and powerlevels to achieve a desirable efficiency level. Without appropriatetraining or experience, the average consumer will not be able toaccomplish that end.

The plug-and-play capabilities of wireless access devices used for802.11 standard and Bluetooth protocols do not present the samecomplexities as when trying to install an overlay device within anunderlay network coverage area. The 802.11 and Bluetooth type devices donot require much configuration during deployment because the standardsfor such devices have been designed to have interference mitigationabilities at the MAC layer. Additionally, the plug-and-play aspects of802.11 and Bluetooth devices are limited to the air interface and do notinclude other aspects of deployment. The approaches used in thosecontexts are not suitable for installing overlay devices such as PCBSUs.

The generic access network controller (GANC) used in the generic accessnetwork system does provide interworking between a GSM underlay and anoverlay using a different technology, such as an 802.11 access point.The GANC performs a tunneling function by translating the signals comingfrom a handset to make them appear to be coming from another GSM basestation. Such tunneling from one access technology to another is notuseful for assisting an automated configuration process of a wirelesstransmission aspect of the network. Accordingly, the GANC approach isnot suitable for installing overlay devices such as PCBSUs.

It is desirable to facilitate installing and using new overlay devicesin a manner that will render them easy to install and still accomplishthe technical adjustments necessary to efficiently use the availablespectrum.

SUMMARY

An exemplary device for facilitating overlay network communicationsincludes a database portion configured to store information regardingoverlay network devices within an underlay network environment. Anoverlay device management portion is configured to communicate withoverlay devices and to provide operation information to the overlaydevices. An underlay network communication portion is configured tocommunicate with at least one underlay network device at least tofacilitate communications between a mobile station and a selectedoverlay device.

The various features and advantages of a disclosed example will becomeapparent to those skilled in the art from the following detaileddescription. The drawings that accompany the detailed description can bebriefly described as follows.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 schematically illustrates selected portions of a wirelesscommunication system having overlay devices within a portion of anunderlay network.

FIG. 2 schematically shows an example server device and associatedfunctionality.

DETAILED DESCRIPTION

FIG. 1 schematically illustrates selected portions of a communicationsystem 20. A base station 22 includes a base station transceiver unitand appropriate radio communication equipment for conducting wirelesscommunications in a generally known manner. The base station 22establishes a wireless communication coverage area 24 that is referredto as a macrocell for purposes of discussion. The geographic region ofthe macrocell 24 will depend on, in part, the capabilities of the basestation 22 and the surrounding geography. There are known techniques forestablishing a desired macrocell coverage area.

Within the macrocell 24, a picocell base station unit (PCBSU) 30provides wireless communication coverage within a picocell 32. As can beappreciated from the illustration, the size of the coverage area of thepicocell 32 is much smaller than that of the macrocell 24. Theillustration is not to scale but the point is that the picocell coveragearea of the picocell 32 is much smaller than that of the macrocell 24.In one example, the picocell 32 corresponds to the user's home.

Another PCBSU 34 provides wireless coverage within a picocell 36. Stillanother PCBSU 38 provides a picocell coverage area 40.

It is possible for a mobile station 44 within the macrocell 24 tocommunicate with the macrocell by communicating with the base station 22in a known manner. When the mobile station 44 enters into a picocellarea where that mobile station is authorized for communications withinthe picocell, it will be desirable to handover from the macrocell 24 tothe corresponding picocell. In the illustrated example, the user of themobile station 44 has rights for using the communication capabilities ofthe PCBSU 30 for communicating within the picocell 32.

The macrocell 24 and the base station 22 are considered part of anunderlay network environment for purposes of discussion. The picocells32, 36 and 40 are considered part of an overlay network because they areoperating in a sense on top of or in addition to the underlayenvironment of the macrocell 24. The PCBSUs 30, 34 and 38 are consideredoverlay devices for purposes of discussion.

An overlay server device 50 facilitates overlay network communicationswithin the underlay network environment by performing a variety offunctions. In one example, an overlay server device 50 is installed aspart of an existing cellular network. The example server device 50 is acentralized network entity that facilitates automated deployment ofoverlay devices and, in some examples, facilitates plug-and-play typeinstallation and use of overlay devices. The example server device 50can, therefore, be considered an automated system management entity.

The example overlay server device 50 includes a database portion 52, anoverlay device management portion 54 and an underlay networkcommunication portion 56. The database portion 52 includes informationindicating various features or aspects of overlay devices. For example,the database portion 52 includes information regarding relationshipsbetween overlay devices such as PCBSUs and associated mobile stations orthe subscribers who own or control the overlay devices.

The overlay device management portion 54 communicates with overlaydevices over a backhaul connection schematically shown at 60. In oneexample, a line-based DSL backhaul connection is used for communicationsbetween the overlay server device 50 and various overlay devices such asthe PCBSU 30. The overlay device management portion 54 facilitatesautomated installation and use of overlay devices.

The underlay network communication portion 56 communicates through acore network 62 with one or more underlay devices 64 such as radionetwork controllers or macrocell base stations. The underlay networkcommunication portion 56 also has access to a home location register 66and an authentication center 68 associated with the underlay network. Asschematically shown at 70, the underlay network communication portion 56also enables the overlay server device 50 to communicate with mobilestations 44 through an underlay macrocell link schematically shown at70.

The overlay server device 50 utilizes the database portion 52 tomaintain information that is useful for initializing, authenticating andconfiguring overlay devices such as the PCBSU 30. It also usesinformation in the database portion 52 to facilitate communicationsbetween the mobile station 44 and the PCBSU 30. Additionally,information from the database portion 52 facilitates mobile stationhandovers between the underlay network and an overlay picocell, forexample.

During an initialization of an overlay device, the database portion 52collects information regarding the subscriber or subscribers who areauthorized to communicate with that overlay device. For example, asubscriber IMSI and IMEI are stored in relation to an identification ofthe overlay device. Information regarding the location (e.g., postalcode) where the overlay device is installed is associated with a recordregarding that device in the database portion 52. A cell code (e.g.,UMTS scrambling code or CDMA PN offset or equivalent) will be allocatedto the overlay device and the database portion 52 includes thatinformation. In one example, the database portion 52 also includesinformation regarding the underlay network macrocell within which theoverlay device is installed.

The database portion 52 also serves as a centralized relational databasethat is used by other network entities to enable or assist in performingvarious functions and services. For example, the database portion 52relates an input of a subscriber's identification (e.g., IMSI) andreturns information regarding the identification, location andconfiguration of a corresponding overlay device associated with thatmobile subscriber. Relating such information and communicating it inthis manner is useful, for example, to assist a radio network controllerfor locating an overlay device of a subscriber to initiate a handoverbetween the overlay and underlay networks.

The database portion 52 and the overlay device management portion 54 areuseful for automatically registering and authenticating new overlaydevices or overlay devices that have been moved from one location toanother, for example. In one example, the overlay server device 50establishes relationships between a subscriber who owns or controls anoverlay device, the subscriber's account and any mobile station that isauthorized to communicate using that particular overlay device. Suchinformation typically will not exist within the overlay device when itis originally provided by a manufacturer or supplier. After a particularsubscriber attempts to install that device, however, it will be possibleto associate such information with the overlay device. The overlayserver device 50 automatically associates such information and stores itappropriately within the database portion 52.

For example, during an initial installation of the PCBSU 30, a uniqueidentifier (e.g., a SIM or an IMEI equivalent) along with the relevantsubscriber's information (e.g., postal code, mobile number, etc.) isrelayed from the PCBSU 30 over the backhaul link 60 to the server device50. The overlay device management portion 54 in one example isconfigured to automatically authenticate the overlay device and create arecord relating all desired information regarding the device and thesubscriber in the database portion 52. The home location register 66 isaccessed to gather some such information for this process in oneexample.

Another feature of the example overlay device management portion 54 isthat it allows the overlay server device 50 to automatically set certainoperation parameters of an overlay device. For example, the databaseportion 52 includes information regarding the location of overlaydevices in a vicinity of the PCBSU 30. The overlay device managementportion 54 uses such information to allocate a cell code (e.g., UMTSscrambling code or CDMA PN offset) to the PCBSU 30. Using suchinformation allows for intelligently allocating cell codes to avoidre-use of the same code within a certain geographic area. Additionally,the overlay device management portion 54 in one example allocates radioresource and frequency channels and sets transmit powers for the overlaydevice. Example operating parameters that can be automatically setinclude a cell code for the overlay device, a power level fortransmissions between the overlay device and a mobile station, a powerfor pilot transmissions, an initial neighbor list configuration, anoperating frequency, location and routing area codes, and a channel foruse by the overlay device. In one example, the database portion 52stores an indication of any such set parameters.

In addition to enabling the overlay server device 50 to communicate withunderlay network elements such as a radio network controller, homelocation register and authentication center, the underlay networkcommunication portion 56 facilitates communications between the overlayserver device 50 and mobile stations. This is useful for example, toconfigure the mobile station 44 so that it will be able to communicatewith the PCBSU 30. For example, the overlay device server 50 (i.e., theunderlay network communication portion 56) provides information to themobile station 44 regarding the PCBSU cell code and other information tofacilitate the mobile station 44 locating the PCBSU 30 and to facilitatehandovers between the underlay and overlay networks. In one example, theoverlay server device 50 (i.e., the underlay network communicationportion 56) provides software downloads such as Applets to a SIM of themobile station 44 to provide functionality to the mobile station 44 toenable it to communicate with the PCBSU 30 and to facilitate otherautomated processes associated with functionality such as handing overbetween an underlay cell and an overlay device. In one example, ShortMessage Service communication protocols are used for such communicationsbetween the overlay server device 50 and the mobile station 44.

The disclosed example facilitates simplifying implementation ofautomated configuration methods for implementing overlay devices withinan underlay network environment. In one example, the overlay serverdevice 50 uses standard, existing interfaces associated with existinglegacy equipment to extract required information and implement anyinstructions. The example overlay server device 50 automates aregistration, authentication and configuration process for overlaydevices. Additionally, it automates the process of reconfiguring amobile station for facilitating communications between the mobilestation and an overlay device. Additionally, the disclosed exampleprovides a relational database that provides useful informationregarding overlay devices for use by underlay network elements and otheroverlay devices as may be needed in a given situation.

The preceding description is exemplary rather than limiting in nature.Variations and modifications to the disclosed examples may becomeapparent to those skilled in the art that do not necessarily depart fromthe essence of this invention. The scope of legal protection given tothis invention can only be determined by studying the following claims.

1. A server device for facilitating overlay network communications, comprising a database portion configured to store information regarding overlay network devices within an underlay network environment; an overlay device management portion configured to facilitate at least one of registering and authenticating at least one overlay device and to provide operation information to the overlay device; and an underlay network communication portion configured to communicate with at least one underlay network device at least to facilitate communications between a mobile station and a selected overlay device, the underlay network communication portion being configured to communicate with the mobile station through an underlay macrocell link, the underlay network communication portion being configured to provide at least one software download to the mobile station for enabling the mobile station to selectively communicate with the selected overlay device.
 2. The device of claim 1, wherein the database portion is configured to store information indicating a relationship between at least one overlay device and at least one mobile station authorized to communicate with the overlay device.
 3. The device of claim 2, wherein the database portion is configured to determine a correspondence between an identifier of the mobile station and information regarding the at least one overlay device including at least one of a cell code, a location and a configuration of the overlay device.
 4. A server device for facilitating overlay network communications, comprising a database portion configured to store information regarding overlay network devices within an underlay network environment; an overlay device management portion configured to configured to facilitate at least one of registering and authenticating at least one overlay device and to provide operation information to the overlay device; and an underlay network communication portion configured to communicate with at least one underlay network device at least to facilitate communications between a mobile station and a selected overlay device, the underlay network communication portion being configured to provide at least one software download to the mobile station for enabling the mobile station to selectively communicate with the selected overlay device, wherein the database portion and the communication portion are configured to assist an underlay radio network controller for conducting a handover between an underlay macrocell and an overlay picocell.
 5. The device of claim 1, wherein the overlay device management portion is configured to facilitate at least one of registering and authenticating an overlay device.
 6. The device of claim 5, wherein the overlay device management portion is configured to relate an identifier of the overlay device with an identifier of an associated mobile station and wherein the database portion is configured to store the related identifiers.
 7. The device of claim 1, wherein the overlay device management portion is configured to automatically set at least one operating parameter of an overlay device, the at least one operating parameter including at least one of a cell code for the overlay device, a power level for transmissions between the overlay device and a mobile station, a power for pilot transmissions, an initial neighbor list configuration, an operating frequency, location and routing area codes, and a channel for use by the overlay device; and wherein the database portion is configured to store an indication of the at least one automatically configured parameter.
 8. The device of claim 7, wherein the overlay device management portion is configured to automatically set the at least one operating parameter based on information in the database portion regarding other overlay devices in a vicinity of the overlay device.
 9. A server device for facilitating overlay network communications, comprising a database portion configured to store information regarding overlay network devices within an underlay network environment; an overlay device management portion configured to communicate with overlay devices configured to facilitate at least one of registering and authenticating at least one overlay device and to provide operation information to the overlay device; and an underlay network communication portion configured to communicate with at least one underlay network device at least to facilitate communications between a mobile station and a selected overlay device, the underlay network communication portion being configured to provide at least one software download to the mobile station for enabling the mobile station to selectively communicate with the selected overlay device, wherein the underlay network communication portion is configured to communicate through an underlay macrocell with the mobile station to provide information to a mobile station for enabling the mobile station to selectively communicate with a selected overlay device.
 10. The device of claim 9, wherein the underlay network communication portion communicates with the mobile station through a short message service protocol. 